Thursday, May 15, 2025 | 9:00-10:00AM EDT

Discover how to accurately predict the thermal and radiometric EO/IR signatures of high-value maritime targets in dynamic environments. This live webinar provides a practical demonstration of how to simulate dynamic maritime target signatures and corresponding naval countermeasures using MuSES. 

We will cover: 

  • Predicting physical temperatures and radiometric EO/IR signatures of high-value maritime targets using MuSES.
  • A comprehensive overview of the simulation model approach, including environmental setup, model attribution, and dynamic inputs for engine state and vessel speed.
  • Detailed ship exhaust fluid simulation and plume analysis.
  • Optimizing rendering settings and showcasing example imagery and animations.
  • Analyzing the thermal simulation and signature impact of key naval countermeasures:
    • Ship stack suppression for exhaust plume cooling.
    • Water wash for exterior ship surface cooling.
    • Flare deployment for missile distraction. 

Who should attend:

  • Ship design engineers – Predict and reduce ship thermal signature through simulation
  • Naval threat analysts – Predict and exploit adversarial ship signatures
  • Data scientists – Generate physics-based IR imagery for AI/ML threat detection

Speaker Bios:

Dr. Corey Packard is a Principal Engineer and Director of Research, Engineering & Product Management here at ThermoAnalytics. He has more than 20 years of experience in remote sensing and physics-based simulation, with his primary technical focus being EO/IR signature prediction. Other technical efforts of Dr. Packard involve field test validations, phenomenological investigations, software development support, and predicting the behavior of optical sensor systems in turbulent atmospheres and from space-based platforms.

Madison Bevins is a Thermal and CFD Engineer at ThermoAnalytics. Her primary focus is in the creation and validation of thermal models for military and commercial use, using TAITherm, MuSES, and CoTherm. Madison has been with the TAI family since 2023, when she began as an intern while obtaining her B.S. in Biomedical Engineering from Michigan Technological University. 

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